Microscopic Origin of Polarity‐Dependent VTH Shift in Amorphous Chalcogenides for 3D Self‐Selecting Memory

Ha‐Jun Sung; Minwoo Choi; Zhe Wu; Hwasung Chae; Sung Heo; Youngjae Kang; Bonwon Koo; Jong‐Bong Park; Wooyoung Yang; Yongyoung Park; Yongnam Ham; Kiyeon Yang; Chang Seung Lee

doi:10.1002/advs.202408028

Advanced Science (Nov 2024)

Microscopic Origin of Polarity‐Dependent VTH Shift in Amorphous Chalcogenides for 3D Self‐Selecting Memory

Ha‐Jun Sung,
Minwoo Choi,
Zhe Wu,
Hwasung Chae,
Sung Heo,
Youngjae Kang,
Bonwon Koo,
Jong‐Bong Park,
Wooyoung Yang,
Yongyoung Park,
Yongnam Ham,
Kiyeon Yang,
Chang Seung Lee

Affiliations

Ha‐Jun Sung: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Minwoo Choi: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Zhe Wu: Advanced Process Development TeamSemiconductor R&D CenterSamsung ElectronicsHwaseong‐si 18448 South Korea
Hwasung Chae: Advanced Process Development TeamSemiconductor R&D CenterSamsung ElectronicsHwaseong‐si 18448 South Korea
Sung Heo: Analytical Engineering GroupSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Youngjae Kang: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Bonwon Koo: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Jong‐Bong Park: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Wooyoung Yang: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Yongyoung Park: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Yongnam Ham: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Kiyeon Yang: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea
Chang Seung Lee: Thin Film Technical UnitSamsung Advanced Institute of TechnologySamsung ElectronicsSuwon‐si 16677 South Korea

DOI: https://doi.org/10.1002/advs.202408028
Journal volume & issue: Vol. 11, no. 44
pp. n/a – n/a

Abstract

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Abstract Ovonic threshold switching (OTS) selectors based on amorphous chalcogenides can revolutionize 3D memory technology owing to their self‐selecting memory (SSM) behavior. However, the complex mechanism governing the memory writing operation limits compositional and device optimization. This study investigates the mechanism behind the polarity‐dependent threshold voltage shift (ΔVTH) through theoretical and experimental analyses. By examining the physical principles of threshold switching and conducting defect state analysis, the ΔVTH as a memory window is confirmed to be attributed to the dynamics of charged defects and their gradient near electrodes, influenced by the nonuniform electric field after threshold switching. This study provides critical insights into the operational mechanism of OTS‐based SSM, known as selector‐only memory, highlighting its advantages for developing high‐density, low‐cost, and energy‐efficient memory technologies in the artificial intelligence era.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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